/* $Id: ClpDummyMatrix.hpp 2385 2019-01-06 19:43:06Z unxusr $ */
// Copyright (C) 2003, International Business Machines
// Corporation and others.  All Rights Reserved.
// This code is licensed under the terms of the Eclipse Public License (EPL).

#ifndef ClpDummyMatrix_H
#define ClpDummyMatrix_H

#include "CoinPragma.hpp"

#include "ClpMatrixBase.hpp"

/** This implements a dummy matrix as derived from ClpMatrixBase.
    This is so you can do ClpPdco but may come in useful elsewhere.
    It just has dimensions but no data
*/

class ClpDummyMatrix : public ClpMatrixBase {

public:
  /**@name Useful methods */
  //@{
  /// Return a complete CoinPackedMatrix
  virtual CoinPackedMatrix *getPackedMatrix() const;
  /** Whether the packed matrix is column major ordered or not. */
  virtual bool isColOrdered() const
  {
    return true;
  }
  /** Number of entries in the packed matrix. */
  virtual CoinBigIndex getNumElements() const
  {
    return numberElements_;
  }
  /** Number of columns. */
  virtual int getNumCols() const
  {
    return numberColumns_;
  }
  /** Number of rows. */
  virtual int getNumRows() const
  {
    return numberRows_;
  }

  /** A vector containing the elements in the packed matrix. Note that there
      might be gaps in this list, entries that do not belong to any
      major-dimension vector. To get the actual elements one should look at
      this vector together with vectorStarts and vectorLengths. */
  virtual const double *getElements() const;
  /** A vector containing the minor indices of the elements in the packed
          matrix. Note that there might be gaps in this list, entries that do not
          belong to any major-dimension vector. To get the actual elements one
          should look at this vector together with vectorStarts and
          vectorLengths. */
  virtual const int *getIndices() const;

  virtual const CoinBigIndex *getVectorStarts() const;
  /** The lengths of the major-dimension vectors. */
  virtual const int *getVectorLengths() const;

  /** Delete the columns whose indices are listed in <code>indDel</code>. */
  virtual void deleteCols(const int numDel, const int *indDel);
  /** Delete the rows whose indices are listed in <code>indDel</code>. */
  virtual void deleteRows(const int numDel, const int *indDel);
  /** Returns a new matrix in reverse order without gaps */
  virtual ClpMatrixBase *reverseOrderedCopy() const;
  /// Returns number of elements in column part of basis
  virtual int countBasis(const int *whichColumn,
    int &numberColumnBasic);
  /// Fills in column part of basis
  virtual void fillBasis(ClpSimplex *model,
    const int *whichColumn,
    int &numberColumnBasic,
    int *row, int *start,
    int *rowCount, int *columnCount,
    CoinFactorizationDouble *element);
  /** Unpacks a column into an CoinIndexedvector
      */
  virtual void unpack(const ClpSimplex *model, CoinIndexedVector *rowArray,
    int column) const;
  /** Unpacks a column into an CoinIndexedvector
      ** in packed foramt
         Note that model is NOT const.  Bounds and objective could
         be modified if doing column generation (just for this variable) */
  virtual void unpackPacked(ClpSimplex *model,
    CoinIndexedVector *rowArray,
    int column) const;
  /** Adds multiple of a column into an CoinIndexedvector
         You can use quickAdd to add to vector */
  virtual void add(const ClpSimplex *model, CoinIndexedVector *rowArray,
    int column, double multiplier) const;
  /** Adds multiple of a column into an array */
  virtual void add(const ClpSimplex *model, double *array,
    int column, double multiplier) const;
  /// Allow any parts of a created CoinMatrix to be deleted
  /// Allow any parts of a created CoinPackedMatrix to be deleted
  virtual void releasePackedMatrix() const {}
  //@}

  /**@name Matrix times vector methods */
  //@{
  /** Return <code>y + A * scalar *x</code> in <code>y</code>.
         @pre <code>x</code> must be of size <code>numColumns()</code>
         @pre <code>y</code> must be of size <code>numRows()</code> */
  virtual void times(double scalar,
    const double *x, double *y) const;
  /// And for scaling
  virtual void times(double scalar,
    const double *x, double *y,
    const double *rowScale,
    const double *columnScale) const;
  /** Return <code>y + x * scalar * A</code> in <code>y</code>.
         @pre <code>x</code> must be of size <code>numRows()</code>
         @pre <code>y</code> must be of size <code>numColumns()</code> */
  virtual void transposeTimes(double scalar,
    const double *x, double *y) const;
  /// And for scaling
  virtual void transposeTimes(double scalar,
    const double *x, double *y,
    const double *rowScale,
    const double *columnScale) const;

  using ClpMatrixBase::transposeTimes;
  /** Return <code>x * scalar * A + y</code> in <code>z</code>.
     Can use y as temporary array (will be empty at end)
     Note - If x packed mode - then z packed mode */
  virtual void transposeTimes(const ClpSimplex *model, double scalar,
    const CoinIndexedVector *x,
    CoinIndexedVector *y,
    CoinIndexedVector *z) const;
  /** Return <code>x *A</code> in <code>z</code> but
     just for indices in y.
     Note - If x packed mode - then z packed mode
     Squashes small elements and knows about ClpSimplex */
  virtual void subsetTransposeTimes(const ClpSimplex *model,
    const CoinIndexedVector *x,
    const CoinIndexedVector *y,
    CoinIndexedVector *z) const;
  //@}

  /**@name Other */
  //@{
  //@}

  /**@name Constructors, destructor */
  //@{
  /** Default constructor. */
  ClpDummyMatrix();
  /// Constructor with data
  ClpDummyMatrix(int numberColumns, int numberRows,
    int numberElements);
  /** Destructor */
  virtual ~ClpDummyMatrix();
  //@}

  /**@name Copy method */
  //@{
  /** The copy constructor. */
  ClpDummyMatrix(const ClpDummyMatrix &);
  /** The copy constructor from an CoinDummyMatrix. */
  ClpDummyMatrix(const CoinPackedMatrix &);

  ClpDummyMatrix &operator=(const ClpDummyMatrix &);
  /// Clone
  virtual ClpMatrixBase *clone() const;
  //@}

protected:
  /**@name Data members
        The data members are protected to allow access for derived classes. */
  //@{
  /// Number of rows
  int numberRows_;
  /// Number of columns
  int numberColumns_;
  /// Number of elements
  int numberElements_;

  //@}
};

#endif

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